English

Shape-Adaptive Conditional Calibration for Conformal Prediction via Minimax Optimization

Methodology 2026-05-13 v2 Machine Learning

Abstract

Achieving valid conditional coverage in conformal prediction is challenging due to the theoretical difficulty of satisfying pointwise constraints in finite samples. Building upon the characterization of conditional coverage through marginal moment restrictions, we introduce Minimax Optimization Predictive Inference (MOPI), a framework that generalizes prior work by optimizing over a flexible class of set-valued mappings during the calibration phase, rather than simply calibrating a fixed sublevel set. This minimax formulation effectively circumvents the structural constraints of predefined score functions, achieving superior shape adaptivity while maintaining a principled connection to the minimization of mean squared coverage error. Theoretically, we provide non-asymptotic oracle inequalities and show that the convergence rate of the coverage error attains the optimal order under regular conditions. The MOPI also enables valid inference conditional on sensitive attributes that are available during calibration but unobserved at test time. Empirical results on complex, non-standard conditional distributions demonstrate that MOPI produces more efficient prediction sets than existing baselines.

Keywords

Cite

@article{arxiv.2603.23374,
  title  = {Shape-Adaptive Conditional Calibration for Conformal Prediction via Minimax Optimization},
  author = {Yajie Bao and Chuchen Zhang and Zhaojun Wang and Haojie Ren and Changliang Zou},
  journal= {arXiv preprint arXiv:2603.23374},
  year   = {2026}
}
R2 v1 2026-07-01T11:35:42.448Z